With the presentation of ECC algorithm and its traits, the thesis specially analyses the process by using ECC to implement SSL.
介绍了曲线公钥密码算法的体制和特点,着重分析了用椭圆曲线密码算法实现SSL协议的过程。
ECC algorithm has some excellences like short key, high security and high efficiency, on the other hand it also faces many questions.
ECC算法具有密钥长度短、安全性高、计算效率高等优点,但是ECC算法的实现本身面临着许多问题。
Finally the implementation experimentation result of prime field ECC digital signature algorithm on smart card is presented. The result proves that the implementation methods used is high efficiency.
最后给出了素数域椭圆曲线签名算法在智能卡上实现的实验数据,实验结果证明文中采用的实现方法是高效的。
To accelerate point multiplication operation of elliptic curve cryptography(ECC), a fast reduction algorithm for modular operation was introduced.
为了提高椭圆曲线密码(ECC)的点乘运算速度,提出了一种快速约简求模算法。
This paper represents an improved method of digital signature, which is based on the principle of combined public key(CPK) and combined with the algorithm of elliptic curve cryptosystem(ECC).
利用组合公钥体制(CPK)的基本思想,结合椭圆曲线加密(ECC)算法,提出了一种改进的数字签名方案。
Based on the in-depth analysis of Elliptic Curve mathematical algorithm and Elliptic Curve Cryptosystem, we have proposed a hardware implementation of ECC.
本文结合椭圆曲线算法的数学基础对椭圆曲线密码体制进行深入的分析,对ECC的硬件实现进行了具体的研究设计。
By studying and improving on ECC mainly, this article deals with the design and encryption algorithm implementation of a hybrid cryptosystem based on elliptic curve.
论文主要通过研究改进椭圆曲线公钥密码学,设计实现了一个基于椭圆曲线的混合加密系统。
According to the characteristics of mobile equipment, choosing password algorithm AES and ECC to encrypt data, the safety environment for simulated mobile M-commerce is established.
本文按移动设备的特点,选用AES和ECC密码算法来对数据加密,最后实现了一个模拟移动电子商务的安全环境。
Secondly, it analyzed ECC and how to improve the algorithm efficiency from the point of Times-dot algorithm and scalar multiplication algorithm.
其次文章详细论述了ECC的相关知识及从倍点乘算法和标量乘运算两方面来提高该算法的运算效率。
An algorithm on ECC blind signature time-stamping is proposed. The algorithm, which is applied in the field of secure digital time-stamping service, solves time-stamping forge problem.
提出了ECC盲签名算法,并应用到安全数字时间戳服务中,从而解决了安全数字时间戳服务中时间戳的伪造问题。
Elliptic Curve Cryptography (ECC) is a rather complicated algorithm. It is difficult to design an application specific integrated circuit (ASIC) to fully implement ECC.
椭圆曲线密码(ECC)是一种非常复杂的数学算法,设计出能够完整实现ECC算法的专用集成电路芯片(ASIC)非常困难。
Introduced des, AES, and IDEA encryption algorithm, RSA, and ECC encryption algorithm, finally, produced the mix crypto-algorithm design proposal.
介绍对称密码技术中的DES、AES、IDEA加密算法和非对称密码技术中的RSA、ECC加密算法,并给出了混合密码算法的方案。
ICE ECC USES an algorithm that will allow it to find shifted data regardless of the distance by which it has been shifted and will work with any block size.
ICE ECC使用的运算法则将允许它找到移位的数据,不管它被移位的距离以及将对任何大小的块起作用。
ICE ECC USES an algorithm that will allow it to find shifted data regardless of the distance by which it has been shifted and will work with any block size.
ICE ECC使用的运算法则将允许它找到移位的数据,不管它被移位的距离以及将对任何大小的块起作用。
应用推荐